Why is it that for any numeric input we prefer an int rather than short, even if the input is of very few integers.

The size of short is 2 bytes on my x86 and 4 bytes for int, shouldn't it be better and faster to allocate than an int?

Or I am wrong in saying that short is not used?

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  • Age is a bad example as it would be better stored in an unsigned type. Be it short or int. – Toad Dec 5 '09 at 7:38
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    And even better would be to store their birthdate. Since an age field has to be kept in sync – Toad Dec 5 '09 at 7:40
  • I edited it, guess that should be OK now :) I agree that age should be unsigned, but I was just looking for an answer to short v/s int. – user225312 Dec 5 '09 at 7:43

CPUs are usually fastest when dealing with their "native" integer size. So even though a short may be smaller than an int, the int is probably closer to the native size of a register in your CPU, and therefore is likely to be the most efficient of the two.

In a typical 32-bit CPU architecture, to load a 32-bit value requires one bus cycle to load all the bits. Loading a 16-bit value requires one bus cycle to load the bits, plus throwing half of them away (this operation may still happen within one bus cycle).

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  • So is there any case where a short can be used? I had never thought of this till today, since I guess we are used to using int. – user225312 Dec 5 '09 at 7:39
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    'short' might be used for file formats and network protocols, where you do care about how much space you're using. – Roger Lipscombe Dec 5 '09 at 7:41
  • so if loading a 16 bit value also be done in one bus cycle then what will be benefit of using 32 bit. – Vivek Dec 5 '09 at 7:42
  • Greg said it may happen in the same cycle -- but not necessarily so. Also, it's more machine code generated, larger instruction cache footprint. – intgr Dec 5 '09 at 7:48
  • What if a struct consisting of 2 shorts or 2 ints then which one is better and efficient then? – Vivek Dec 5 '09 at 7:52

A 16-bit short makes sense if you're keeping so many in memory (in a large array, for example) that the 50% reduction in size adds up to an appreciable reduction in memory overhead. They are not faster than 32-bit integers on modern processors, as Greg correctly pointed out.

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In embedded systems, the short and unsigned short data types are used for accessing items that require less bits than the native integer.

For example, if my USB controller has 16 bit registers, and my processor has a native 32 bit integer, I would use an unsigned short to access the registers (provided that the unsigned short data type is 16-bits).

Most of the advice from experienced users (see news:comp.lang.c++.moderated) is to use the native integer size unless a smaller data type must be used. The problem with using short to save memory is that the values may exceed the limits of short. Also, this may be a performance hit on some 32-bit processors, as they have to fetch 32 bits near the 16-bit variable and eliminate the unwanted 16 bits.

My advice is to work on the quality of your programs first, and only worry about optimization if it is warranted and you have extra time in your schedule.

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  • I was not looking for optimization, I was just curious as to why short was never used. And since I could not find any convincing reason wherever I looked, I thought the optimization part was the problem. Thanks for your reply, btw. – user225312 Dec 6 '09 at 7:04

Using type short does not guarantee that the actual values will be smaller than those of type int. It allows for them to be smaller, and ensures that they are no bigger. Note too that short must be larger than or equal in size to type char.

The original question above contains actual sizes for the processor in question, but when porting code to a new environment, one can only rely on weak relative assumptions without verifying the implementation-defined sizes.

The C header <stdint.h> -- or, from C++, <cstdint> -- defines types of specified size, such as uint8_t for an unsigned integral type exactly eight bits wide. Use these types when attempting to conform to an externally-specified format such as a network protocol or binary file format.

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  • You should mention <stdint.h> – Tom Dec 6 '09 at 17:57
  • Thanks for the suggestion. I added another paragraph on that topic. – seh Dec 6 '09 at 22:44

The short type is very useful if you have a big array full of them and int is just way too big.

Given that the array is big enough, the memory saving will be important (instead of just using an array of ints).

Unicode arrays are also encoded in shorts (although other encode schemes exist).

On embedded devices, space still matters and short might be very beneficial.

Last but not least, some transmission protocols insists in using shorts, so you still need them there.

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  • Unicode is not encoded as short. First, you are thinking of wchar_t, which is a distinct type, and second, the most common encoding is probably UTF-8 which is byte-sized. UTF16 is the default on Windows, but it's far from being "the" Unicode encoding. And finally, there's also UTF32. – jalf Dec 5 '09 at 8:33
  • I was actually thinking of utf16, which in fact really is a short, even though you might name it wchar_t. This encoding it typically used for in memory representations. (As you said windows uses it, java uses it, etc) – Toad Dec 5 '09 at 8:45
  • Are 16 bit integers not loaded with 16 bits of padding between them? – Jeroen Oct 6 '17 at 14:38
  • On some processors, when you use a 16bit integer, it is handled in a general purpose 'register' which can handle 32 bit oas well as 64 bit numbers. It just decides when an operation on a short is chosen to take only the lower 16 bits into account. However in c++, this is all unknown to the programmer, and a short datatype is really 16 bit with no padding or other tricks. – Toad Oct 7 '17 at 13:41

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